Eye massager
By creating a steam groove by setting an annular protrusion on the silicone inner shell of the eye massager, the problem of steam escape is solved, the steam action time is extended, the steam massage effect is improved, and the wearing comfort and cleaning convenience are enhanced.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN SANHESHENG TECH CO LTD
- Filing Date
- 2025-07-01
- Publication Date
- 2026-06-12
AI Technical Summary
In existing eye massagers with steam eye care function, the steam generated by the atomizing component can easily escape from the gaps between the massage heads, reducing the time the steam acts on the eyes and weakening the effect of steam massage.
A ring-shaped protrusion corresponding to the outer periphery of the human eye is set on the silicone inner shell to form a steam groove. The atomizing component is set in the steam groove. The protrusion and the outer wall of the silicone inner shell surround the steam groove to prolong the time that the steam acts on the human eye. It is detachably connected to the atomizing component through the mounting plate to improve stability and ease of cleaning.
It prolongs the time that steam acts on the eyes, improving the effect of steam massage, while also enhancing wearing comfort and ease of cleaning.
Smart Images

Figure CN224345177U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of massager technology, and in particular to an eye massager. Background Technology
[0002] In daily life and work, prolonged use of the eyes can cause eye fatigue. Eye massagers can effectively massage and relax the eyes to relieve this fatigue. To cater to the different massage needs of various groups, eye massagers that utilize steam to enhance eye care have appeared on the market. The principle behind steam eye care is that the warmth and humidity of steam can promote microcirculation of blood in the eyes, thereby relieving eye fatigue, brightening the eyes, and alleviating eye discomfort.
[0003] Currently, eye massagers with steam eye protection function generally have an atomizing component and multiple massage heads simultaneously installed on the side of the casing facing the eyes. The vibrations generated by the massage heads massage the area around the eyes (the eye socket area), while the steam generated by the atomizing component provides a steam massage to the eyes (for specific examples of eye massagers with steam eye protection function, please refer to patents such as CN219166874U). However, during use, because the multiple massage heads are spaced apart, the steam generated by the atomizing component can easily escape from the gaps between the massage heads, reducing the time the steam acts on the eyes and weakening the steam massage effect. Utility Model Content
[0004] The purpose of this invention is to provide an eye massager that can prolong the time that steam acts on the eyes and improve the effect of steam massage.
[0005] This utility model provides an eye massager, including a housing and an atomizing component. The housing includes a face cover, a middle frame, and a silicone inner shell. The silicone inner shell is located on the side of the face cover facing the human eye. The middle frame is located between the face cover and the silicone inner shell. The middle frame abuts against the inner wall of the silicone inner shell to support the silicone inner shell. The face cover, the middle frame, and the silicone inner shell are fixedly connected.
[0006] The silicone inner shell has a protrusion on the side facing the human eye. The protrusion is an integral structure with the silicone inner shell. The protrusion is a ring structure corresponding to the outer periphery of the human eye. The protrusion and the outer wall of the silicone inner shell enclose a steam groove. The atomizing component is disposed in the steam groove and is used to atomize water into steam.
[0007] In one feasible approach, the depth of the steam tank is 5 mm to 20 mm.
[0008] In one possible implementation, an annular groove is provided on the inner wall of the silicone inner shell corresponding to the position of the protrusion.
[0009] In one feasible embodiment, along the left-right direction of the eye massager, the lower middle side of the protrusion and the lower middle side of the silicone inner shell are both recessed upwards, so that the lower middle side of the protrusion and the lower middle side of the silicone inner shell together form a nose bridge clearance groove.
[0010] In one possible implementation, along the left-right direction of the eye massager, a first mounting hole is provided at the center of the silicone inner shell, the first mounting hole corresponding to the steam tank; the shell further includes a mounting plate, the hardness of the mounting plate being greater than the hardness of the silicone inner shell; the mounting plate is located on the side of the middle frame away from the face cover, the mounting plate is corresponding to the first mounting hole, the mounting plate is fixedly connected to the silicone inner shell, and the mounting plate seals the first mounting hole; the atomizing component is located on the side of the mounting plate away from the middle frame, and the atomizing component is detachably mounted on the mounting plate.
[0011] In one possible implementation, the silicone inner shell has a recessed portion around the first mounting hole, the recessed portion being formed by the silicone inner shell recessing inward toward the middle frame; the recessed portion has an annular folded edge around the first mounting hole, and the edge of the mounting plate is fixedly connected to the annular folded edge; a receiving groove is formed between the mounting plate and the recessed portion, the receiving groove communicating with the steam groove, and the atomizing component is disposed in the receiving groove.
[0012] In one possible implementation, the mounting plate is integrally connected to the silicone inner shell.
[0013] In one possible implementation, the silicone inner shell is provided with a second mounting hole, which corresponds to the steam tank; the eye massager further includes a heating element, which corresponds to the second mounting hole, is fixedly connected to the silicone inner shell, and seals the second mounting hole; the heating element is capable of generating heat after being powered on, so as to heat the steam generated by the atomizing component.
[0014] In one possible implementation, the heating element is integrally connected to the silicone inner shell.
[0015] In one possible embodiment, the eye massager further includes a headpiece; mounting components are provided at opposite ends of the housing, and opposite ends of the headpiece are respectively connected to the mounting components at opposite ends of the housing; the mounting components are detachably connected to the ends of the housing.
[0016] In one possible implementation, the atomizing assembly includes a water tank, an atomizing plate, a sealing component, a first electrical connector, and a first magnetic connector, wherein the atomizing plate, the first electrical connector, and the first magnetic connector are all disposed on the wall of the water tank, and the atomizing plate is electrically connected to the first electrical connector.
[0017] The water storage tank has a water storage cavity inside, and the water storage tank has a water inlet and a water outlet, both of which are connected to the water storage cavity. A sealing member is provided corresponding to the water inlet, and the sealing member is used to open or seal the water inlet. An atomizing plate is provided corresponding to the water outlet, and water in the water storage cavity can reach the atomizing plate through the water outlet so that the water can be atomized into steam by the atomizing plate.
[0018] The housing contains an electronic control component, and the inner sidewall of the mounting plate is provided with a second electrical connector and a second magnetic connector. The electronic control component is electrically connected to the second electrical connector. When the atomizing component is installed on the mounting plate, the first electrical connector and the second electrical connector come into contact and conduct electricity, and the first magnetic connector and the second magnetic connector are attracted by magnetic force.
[0019] The eye massager provided by this utility model features a protrusion on its silicone inner shell. This protrusion is a ring-shaped structure corresponding to the outer periphery of the human eye. The protrusion and the outer wall of the silicone inner shell enclose a steam groove, within which the atomizing component is located. When the user wears the eye massager, the protrusion contacts the face, confining the steam generated by the atomizing component within the steam groove, thus prolonging the time the steam acts on the eyes and improving the steam massage effect. Furthermore, because the silicone inner shell is made of flexible silicone, and the protrusion is integrally molded with the inner shell, it is also made of silicone, providing a better tactile feel and improving wearing comfort. The protrusion also provides support and reinforcement to the silicone inner shell, further preventing it from collapsing inwards. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the structure of the eye massager in an embodiment of this utility model.
[0021] Figure 2 for Figure 1 A structural diagram in another direction.
[0022] Figure 3 for Figure 2 A schematic diagram of the explosion structure.
[0023] Figure 4 for Figure 2 A structural diagram after removing the cover, headgear, and mounting components.
[0024] Figure 5 for Figure 4 A schematic diagram of the explosion structure.
[0025] Figure 6 for Figure 5 A structural diagram in another direction.
[0026] Figure 7 This is a schematic diagram of the assembly structure of the silicone inner shell, mounting plate, heating element, second electrical connector and light-emitting device in an embodiment of this utility model.
[0027] Figure 8 for Figure 7 A structural diagram in another direction.
[0028] Figure 9 for Figure 7 A schematic diagram of the explosion structure.
[0029] Figure 10 for Figure 9 A structural diagram in another direction.
[0030] Figure 11 This is a schematic diagram of the atomizing component in an embodiment of the present invention.
[0031] Figure 12 for Figure 11 A structural diagram in another direction.
[0032] Figure 13 for Figure 11 A schematic diagram of the explosion structure.
[0033] Figure 14 for Figure 13 A schematic diagram of the exploded structure after further decomposition.
[0034] Figure 15 for Figure 14 A structural diagram in another direction.
[0035] Figure 16 This is a schematic diagram of the exploded structure of the shell in an embodiment of this utility model.
[0036] Figure 17 for Figure 16 A structural diagram in another direction. Detailed Implementation
[0037] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate this utility model, but are not intended to limit the scope of this utility model.
[0038] The terms “first,” “second,” “third,” “fourth,” etc. (if present) in the specification and claims of this utility model are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence.
[0039] The directional terms such as "up," "down," "left," "right," "front," "back," "top," and "bottom" (if present) used in the specification and claims of this utility model are defined according to the position of the structures in the drawings and the relative positions of the structures, and are only for the purpose of clarity and convenience in expressing the technical solution. It should be understood that the use of directional terms should not limit the scope of protection claimed by this utility model.
[0040] like Figures 1 to 6 As shown, the eye massager provided in this embodiment of the present invention has a left-right direction X. The eye massager includes a shell 1 that is generally curved into an arch shape and an atomizing component 2. The atomizing component 2 is disposed on the outer wall of the shell 1 on the side facing the human eye, and the atomizing component 2 is positioned corresponding to the position of the human eye. The shell 1 includes a face cover 11, a middle frame 12, and a silicone inner shell 13 arranged sequentially, and the face cover 11, the middle frame 12, and the silicone inner shell 13 are all generally arched in shape. The silicone inner shell 13 and the face cover 11 are arranged opposite each other, with the silicone inner shell 13 located on the side of the face cover 11 facing the eyes. The middle frame 12 is located between the face cover 11 and the silicone inner shell 13. The middle frame 12 abuts against the inner wall of the silicone inner shell 13 (the inner wall of the silicone inner shell 13 is the side wall of the silicone inner shell 13 closest to the face cover 11) to support the silicone inner shell 13 (that is, the middle frame 12 is in contact with the inner wall of the silicone inner shell 13). The face cover 11, the middle frame 12, and the silicone inner shell 13 are fixedly connected. The middle frame 12 and the face cover 11 can be made of rigid materials such as plastic. By setting the middle frame 12, which is a rigid structure, and having the middle frame 12 abut against the inner wall of the silicone inner shell 13, the soft silicone inner shell 13 is supported, preventing deformation and collapse of the silicone inner shell 13 when the human face comes into contact with the protrusion 131 described below and when it is subjected to force.
[0041] A protrusion 131 is provided on the side of the silicone inner shell 13 facing the human eye. The protrusion 131 is formed by the outer wall of the silicone inner shell 13 protruding towards the human eye. The protrusion 131 and the silicone inner shell 13 are an integral structure, both made of silicone. The protrusion 131 is a ring-shaped structure corresponding to the outer periphery of the human eye (i.e., the eye socket position). The protrusion 131 is used to contact the human face. The protrusion 131 and the outer wall of the silicone inner shell 13 (the outer wall of the silicone inner shell 13, i.e., the side wall of the silicone inner shell 13 away from the face cover 11) enclose a steam groove 132. An atomizing component 2 is disposed within the steam groove 132. The atomizing component 2 is used to atomize water into steam to achieve the steam eye protection function. Furthermore, the protrusion 131 protrudes outward from the atomizing component 2; that is, when the human face comes into contact with the protrusion 131, the atomizing component 2 does not come into contact with the human face, thus avoiding discomfort caused by contact between the atomizing component 2 and the human face. Also, in this embodiment, no massage head is provided on the silicone inner shell 13 (i.e., the protrusion 131 replaces the original location of the massage head). When the user wears and uses the eye massager, the protrusion 131 contacts the outer edge of the human eye, and the steam tank 132 corresponds to the human's eyes.
[0042] The eye massager provided in this embodiment of the invention features a protrusion 131 on a silicone inner shell 13. The protrusion 131 is a ring-shaped structure corresponding to the outer periphery of the human eye. The protrusion 131 and the outer wall of the silicone inner shell 13 enclose a steam groove 132, within which the atomizing component 2 is disposed. Therefore, when the user wears the eye massager, the protrusion 131 contacts the face, confining the steam generated by the atomizing component 2 within the steam groove 132. This prolongs the time the steam acts on the eyes, improving the steam massage effect (specifically, during use, only a portion of the steam slowly escapes through the gap between the protrusion 131 and the face, significantly slowing the escape rate). Furthermore, since the silicone inner shell 13 is made of flexible silicone, and the protrusion 131 is integrally formed with the inner shell 13, it is also made of silicone, providing a better tactile feel and enhancing wearing comfort. At the same time, the protrusion 131 can also provide support and reinforcement for the silicone inner shell 13 (similar to the function of a rib), further preventing the silicone inner shell 13 from collapsing inward.
[0043] In one embodiment, the depth of the steam tank 132 (i.e., the protrusion dimension of the protrusion 131) is 5 mm to 20 mm. Preferably, the depth of the steam tank 132 is 10 mm to 20 mm.
[0044] like Figure 6 and Figure 8As shown, in one embodiment, a ring-shaped groove 133 is provided on the inner side wall of the silicone inner shell 13 at the position corresponding to the protrusion 131. By setting the groove 133, the weight can be reduced, which is conducive to the lightweight design of the eye massager and helps to reduce material costs.
[0045] like Figures 5 to 10 As shown, in one embodiment, along the left-right direction X of the eye massager, a first mounting hole 135 is provided at the middle position of the silicone inner shell 13. The first mounting hole 135 penetrates the silicone inner shell 13 and is located corresponding to the steam tank 132, that is, the first mounting hole 135 is located within the area of the steam tank 132. The shell 1 also includes a mounting plate 14. The hardness of the mounting plate 14 is greater than that of the silicone inner shell 13. The mounting plate 14 can be made of a hard material such as plastic (e.g., nylon). The mounting plate 14 is located on the side of the middle frame 12 away from the face cover 11. The mounting plate 14 is located corresponding to the first mounting hole 135. The mounting plate 14 is fixedly connected to the silicone inner shell 13 and seals the first mounting hole 135. The atomizing component 2 is located on the side of the mounting plate 14 away from the middle frame 12 and is detachably mounted on the mounting plate 14.
[0046] By setting the mounting plate 14, which is fixedly connected to the silicone inner shell 13, the mounting plate 14 is a rigid plate. During use, the atomizing component 2 is installed on the mounting plate 14, which can prevent the silicone inner shell 13 from deforming and collapsing under stress (i.e., the atomizing component 2 is not directly installed on the silicone inner shell 13), thereby ensuring the massage effect. At the same time, it can improve the positional stability of the atomizing component 2 after installation and the electrical connection stability between the first electrical connector 24 and the second electrical connector 8 (the first electrical connector 24 and the second electrical connector 8 are described in detail below). Moreover, since the atomizing component 2 is detachably connected to the mounting plate 14, that is, the atomizing component 2 is set as a detachable structure, the atomizing component 2 can be removed from the shell 1 during cleaning, thereby facilitating the cleaning of the atomizing component 2 and the shell 1 and improving the cleaning effect. When filling the atomizing component 2 with water, the atomizing component 2 can be removed from the housing 1 first, and then water can be filled into the atomizing component 2. This not only makes the water filling operation more convenient, but also avoids water splashing onto the housing 1 during water filling, thus improving the user experience.
[0047] like Figures 5 to 15 As shown, in one embodiment, the atomizing component 2 includes a water tank 21, an atomizing plate 22, a sealing member 23, and a first electrical connector 24. The atomizing plate 22 and the first electrical connector 24 are both disposed on the wall of the water tank 21. The first electrical connector 24 is specifically disposed on the wall of the water tank 21 on the side of the housing 1. The atomizing plate 22 is electrically connected to the first electrical connector 24.
[0048] The water storage tank 21 has a hollow structure and a water storage cavity 210 inside. The water storage tank 21 has an inlet 211 and an outlet 212, both of which are connected to the water storage cavity 210. A sealing member 23 is provided corresponding to the inlet 211 and is closably connected to the water storage tank 21. The sealing member 23 is used to open or seal the inlet 211. An atomizing plate 22 is provided corresponding to the outlet 212. The atomizing plate 22 blocks the outlet 212, allowing water in the water storage cavity 210 to reach the atomizing plate 22 through the outlet 212, where it is atomized into steam.
[0049] An electronic control component 7 is housed within the housing 1. A second electrical connector 8 is provided on the inner side wall of the mounting plate 14 (i.e., the side wall of the mounting plate 14 near the middle frame 12). The electronic control component 7 is electrically connected to the second electrical connector 8. When the atomizing component 2 is installed on the mounting plate 14, the first electrical connector 24 can contact and electrically connect with the second electrical connector 8, thereby electrically connecting the atomizing plate 22 to the electronic control component 7. When the atomizing component 2 is removed from the mounting plate 14, the first electrical connector 24 separates from the second electrical connector 8, and the electrical connection is broken. This method solves the problem of difficulty in electrically connecting the electronic control component 7 and the atomizing plate 22 caused by the detachable design of the atomizing component 2 and the housing 1.
[0050] The water tank 21 is used to store water. Water can be added to the water storage chamber 210 of the water tank 21 through the water injection hole 211 (or, when the eye massager is finished using, excess water in the water storage chamber 210 can also be discharged out of the water storage chamber 210 through the water injection hole 211); the sealing member 23 is used to open or seal the water injection hole 211. It can be opened when adding water and closed after adding water to seal the water injection hole 211, thereby preventing water in the water storage chamber 210 from leaking out during use and making it convenient for users to operate.
[0051] The atomizing plate 22 can be an ultrasonic atomizing plate, meaning that the atomizing plate 22 generates ultrasonic vibrations after being powered on, using the ultrasonic vibrations to atomize water into steam. The atomizing plate 22 can also be a heated atomizing plate, meaning that the atomizing plate 22 heats up after being powered on, heating the water to atomize it into steam. The atomizing plate 22 can also be an ultrasonic / heated atomizing plate, meaning that the atomizing plate 22 generates both ultrasonic vibrations and heat after being powered on, using both ultrasonic vibrations and heating to atomize water. In this embodiment, the atomizing plate 22 is an ultrasonic atomizing plate; during use, water in the water storage chamber 210 reaches the atomizing plate 22 through the water outlet 212. When the atomizing plate 22 is powered on, it uses ultrasonic vibrations to atomize the water into steam, which reaches the user's eyes, thus providing steam eye protection.
[0052] The electronic control component 7 is used to power the atomizing plate 22 and control its operation (e.g., controlling its opening and closing and operating mode). The electronic control component 7 includes a main control board 71 (specifically including a main control circuit board and electronic components mounted on it) and a battery 72. The battery 72 is electrically connected to the main control board 71, and the second electrical connector 8 is also electrically connected to the main control board 71. When the atomizing component 2 is installed on the mounting plate 14, the first electrical connector 24 and the second electrical connector 8 come into contact and become electrically connected, thereby electrically connecting the atomizing plate 22 to the electronic control component 7 via the first electrical connector 24 and the second electrical connector 8, thus powering the atomizing plate 22 and controlling its operation. The atomizing plate 22 can be disposed on the outer wall of the water storage tank 21 or embedded in the tank wall, as long as the water in the water storage cavity 210 can reach the atomizing plate 22 through the water outlet 212 and the steam generated by the atomizing plate 22 can flow to the human eye. The first electrical connector 24 can be disposed on the outer wall of the water storage tank 21 or embedded in the tank wall. For the specific structure and function of the atomizing component 2 and the electrical control component 7, please refer to the applicant's previous patent application, which will not be repeated here.
[0053] like Figures 5 to 15 As shown, in one embodiment, the atomizing component 2 further includes a first magnetic chuck 26, which is disposed on the wall of the water tank 21, and a second magnetic chuck 15 is disposed on the inner side wall of the mounting plate 14. When the atomizing component 2 is installed on the mounting plate 14, the first magnetic chuck 26 and the second magnetic chuck 15 can be magnetically attracted, thereby detachably fixing the atomizing component 2 to the mounting plate 14 by magnetic force, facilitating the installation and removal of the atomizing component 2. The first magnetic chuck 26 and the second magnetic chuck 15 can both be magnets, or one can be a magnet and the other an iron block, as long as they can be magnetically attracted. Of course, in other embodiments, the atomizing component 2 can also be detachably connected to the housing 1 by other means, such as snap-fit.
[0054] like Figures 5 to 15As shown, in one embodiment, the second electrical connector 8 includes a fixing block 81 and a spring pin 82 disposed on the fixing block 81. The spring pin 82 is electrically connected to the electronic control component 7 (specifically the main control board 71). The fixing block 81 is fixed to the inner sidewall of the mounting plate 14, thereby fixing the spring pin 82. At the same time, the second magnetic suction component 15 is disposed corresponding to the fixing block 81, and the fixing block 81 presses and fixes the second magnetic suction component 15 to the inner sidewall of the mounting plate 14. The mounting plate 14 is provided with a first clearance hole 141 at the position corresponding to the spring pin 82. The spring pin 82 extends out of the mounting plate 14 through the first clearance hole 141, so that after the atomizing component 2 is installed on the mounting plate 14, the conductive post 242 in the first electrical connector 24 can contact and conduct electricity with the spring pin 82. At the same time, the spring pin 82 can extend and retract to avoid the conductive post 242 from rigidly contacting the spring pin 82 and being damaged. Of course, in other embodiments, the first electrical connector 24 and the second electrical connector 8 can also be in other forms of mating, such as a plug and socket mating.
[0055] like Figures 2 to 15 As shown, in one embodiment, along the left-right direction X of the eye massager, the atomizing component 2 is positioned in the middle of the housing 1, so that the steam generated by the atomizing component 2 can evenly reach the eyes of the user. Simultaneously, a speaker 25 is provided on the wall of the water tank 21, specifically located on the side of the water tank 21 away from the housing 1. The speaker 25 is electrically connected to the first electrical connector 24. When the atomizing component 2 is installed on the mounting plate 14, the speaker 25 can be electrically connected to the electronic control component 7 through the first electrical connector 24 and the second electrical connector 8, so that the electronic control component 7 can supply power to the speaker 25 and control its operation.
[0056] Specifically, the speaker 25 (i.e., the loudspeaker) has music playback or voice playback functions. In this embodiment, the speaker 25 is placed on the atomizing component 2, which not only enhances the technological feel and fun of the eye massager, but also, since the atomizing component 2 is located in the middle of the housing 1, that is, the speaker 25 is also located in the middle of the housing 1, the sound emitted by the speaker 25 can propagate synchronously from the middle of the housing 1 to both sides (specifically, the sound emitted by the speaker 25 propagates to both sides from the gap between the human face and the housing 1 after contacting the human face), so that the sound reaches the human's ears synchronously. In this way, one speaker 25 can replace the original design of speakers placed at both ends (currently, eye massagers with music playback functions generally place the speakers at opposite ends of the housing, that is, the speakers on both sides are respectively placed at the human's ears), which not only saves costs, but also achieves good sound effects.
[0057] like Figures 2 to 15As shown, in one embodiment, the tank wall of the water storage tank 21 includes a left side wall 21A and a right side wall 21B arranged opposite to each other, and a front side wall 21C and a rear side wall 21D arranged opposite to each other. The front side wall 21C is located on the side of the rear side wall 21D facing the human eye (that is, the front side wall 21C is located on the side of the rear side wall 21D away from the shell 1).
[0058] Water outlet 212 is provided on the left side wall 21A and the right side wall 21B. Atomizing plate 22 is also provided on the left side wall 21A and the right side wall 21B. The atomizing plate 22 and water outlet 212 on the left side wall 21A and the right side wall 21B are respectively correspondingly set (that is, the atomizing plate 22 on the left side wall 21A is correspondingly set with the water outlet 212 on the left side wall 21A, and the atomizing plate 22 on the right side wall 21B is correspondingly set with the water outlet 212 on the right side wall 21B). Water inlet 211 and sealing member 23 are both provided on the top of water storage tank 21.
[0059] The speaker 25 is mounted on the front sidewall 21C, so that the sound played by the speaker 25 can be simultaneously transmitted to both ears of the human body. The first electrical connector 24 is mounted on the rear sidewall 21D, so that it can easily make contact with the second electrical connector 8. The first magnetic connector 26 is also mounted on the rear sidewall 21D, so that it can easily be magnetically attracted to the second magnetic connector 15.
[0060] Specifically, in this embodiment, the left side wall 21A and the right side wall 21B are respectively inclined at an obtuse angle to the front side wall 21C, that is, the left side wall 21A is inclined to the left front and the right side wall 21B is inclined to the right front, so that the steam generated by the atomizing plate 22 on the left side wall 21A and the atomizing plate 22 on the right side wall 21B can more easily reach the human eyes.
[0061] like Figures 11 to 15 As shown, in one embodiment, the water storage tank 21 is provided with a channel 213, which runs through the water storage tank 21 from front to back, and the channel 213 is not connected to the water storage cavity 210 (i.e., the channel 213 and the water storage cavity 210 are isolated from each other); the speaker 25 is electrically connected to the first electrical connector 24 through a wire (not shown), and the wire passes through the channel 213 (i.e., the wire runs through the channel 213), thereby solving the wiring problem of the electrical connection between the speaker 25 and the first electrical connector 24 and improving the safety of the wiring. Through holes 217 are provided on the left and right sides of the water storage tank 21, and the atomizing plate 22 is electrically connected to the first electrical connector 24 through a conductive wire (not shown), and the conductive wire passes through the through hole 217 (i.e., the conductive wire runs through the through hole 217).
[0062] like Figures 11 to 15As shown, in one embodiment, a sealing gasket 29 is sandwiched between the atomizing plate 22 and the water storage tank 21. The sealing gasket 29 is provided corresponding to the water outlet 212 and is used to prevent water leakage between the atomizing plate 22 and the water storage tank 21.
[0063] like Figures 11 to 15 As shown, in one embodiment, the front sidewall 21C of the water tank 21 is provided with a front mounting groove 215, and the speaker 25 is disposed in the front mounting groove 215. The atomizing assembly 2 also includes a front cover plate 27, which is disposed corresponding to the left sidewall 21A, right sidewall 21B and front sidewall 21C of the water tank 21. That is, the front cover plate 27 is disposed corresponding to the atomizing plates 22 and the speaker 25 on both sides. The front cover plate 27 is fixedly connected to the water tank 21. The front cover plate 27 presses and fixes the atomizing plates 22 and the speaker 25 on both sides onto the water tank 21, and covers the atomizing plates 22 and the speaker 25 on both sides. That is, the front cover plate 27 not only serves to install and fix the atomizing plates 22 and the speaker 25, but also serves to cover and make it aesthetically pleasing, while preventing the atomizing plates 22 and the speaker 25 from being damaged by collision. The front cover 27 has steam outlet holes 272 at the positions corresponding to the atomizing plates 22 on both sides, so that the steam generated by the atomizing plates 22 can be discharged through the steam outlet holes 272. The front cover 27 has a first sound outlet hole 271 at the position corresponding to the speaker 25, so that the sound played by the speaker 25 can be discharged through the first sound outlet hole 271; the first sound outlet hole 271 is set in the form of multiple closely spaced small holes to improve the aesthetics.
[0064] like Figures 11 to 15 As shown, in one embodiment, the rear sidewall 21D of the water tank 21 is provided with a rear mounting groove 216. The first electrical connector 24 and the first magnetic connector 26 are both disposed in the rear mounting groove 216. The channel 213 connects the front mounting groove 215 and the rear mounting groove 216. The atomizing assembly 2 also includes a rear cover plate 28, which is disposed corresponding to the rear mounting groove 216 of the water tank 21. That is, the rear cover plate 28 is disposed corresponding to the first electrical connector 24 and the first magnetic connector 26. The rear cover plate 28 is fixedly connected to the water tank 21. The rear cover plate 28 presses and fixes the first electrical connector 24 and the first magnetic connector 26 onto the water tank 21 and covers the first electrical connector 24 and the first magnetic connector 26. That is, the rear cover plate 28 not only serves to install and fix the first electrical connector 24 and the first magnetic connector 26, but also serves to cover and make it aesthetically pleasing, while preventing the first electrical connector 24 and the first magnetic connector 26 from being damaged by collision.
[0065] In this embodiment, the first electrical connector 24 includes an adapter plate 241 (the adapter plate 241 is a circuit board) and conductive posts 242 disposed on the adapter plate 241. The atomizing sheet 22 and the speaker 25 are both electrically connected to the adapter plate 241, and the conductive posts 242 are electrically connected to the adapter plate 241. The conductive posts 242 are used for electrical connection with the second electrical connector 8. An opening 281 is provided on the rear cover plate 28 at the position corresponding to the conductive posts 242. The conductive posts 242 are exposed or extend out of the rear cover plate 28 through the opening 281 (the conductive posts 242 may extend out of the rear cover plate 28 or not), thereby facilitating the electrical connection between the conductive posts 242 and the second electrical connector 8. Of course, in other embodiments, the first electrical connector 24 can also have other structural forms.
[0066] In this embodiment, the front cover plate 27, the water tank 21, and the rear cover plate 28 are fixed together with screws. Of course, in other embodiments, the front cover plate 27, the water tank 21, and the rear cover plate 28 can also be fixed in other ways.
[0067] like Figures 11 to 15 As shown, in one embodiment, the sealing component 23 includes a connecting post 231 and a plug 232 connected to each other. The water storage tank 21 is provided with a connecting hole 214, and the connecting post 231 is located in the connecting hole 214 and fixedly connected to the water storage tank 21. The plug 232 is provided corresponding to the water injection hole 211. The plug 232 is used to open or seal the water injection hole 211. The plug 232 is detachably connected to the water storage tank 21. Specifically, the plug 232 is fixed to the inner wall of the water injection hole 211 by an interference fit.
[0068] like Figures 11 to 15 As shown, in one embodiment, the water storage tank 21 includes an upper tank 21M and a lower tank 21N. The upper tank 21M and the lower tank 21N are fixedly connected (specifically, they can be connected by screws). The upper tank 21M is located above the lower tank 21N. The water storage cavity 210 is formed by the upper tank 21M and the lower tank 21N (that is, the water storage cavity 210 is simultaneously located inside the upper tank 21M and the lower tank 21N). The water inlet 211 and the sealing member 23 are both located on the top of the upper tank 21M. The water outlet 212, the atomizing plate 22, the speaker 25, the first magnetic suction member 26, and the first electrical connector 24 are all located on the lower tank 21N. The front cover plate 27 and the rear cover plate 28 are fixedly connected to the lower tank 21N.
[0069] like Figures 5 to 10As shown, in one embodiment, the silicone inner shell 13 has a recessed portion 136 around the first mounting hole 135. The recessed portion 136 is formed by the silicone inner shell 13 being recessed inward toward the middle frame 12. An annular folded edge portion 1361 is provided around the first mounting hole 135 on the recessed portion 136. The annular folded edge portion 1361 is formed by the edge of the recessed portion 136 protruding toward the center of the first mounting hole 135. The mounting plate 14 is located on the side of the annular folded edge portion 1361 away from the middle frame 12. The edge of the mounting plate 14 is fixedly connected to the annular folded edge portion 1361, thereby improving the connection strength and sealing performance between the mounting plate 14 and the silicone inner shell 13. A receiving groove 137 is formed between the mounting plate 14 and the recess 136. The receiving groove 137 is contoured to the atomizing component 2 and is connected to the steam tank 132. When the atomizing component 2 is installed on the mounting plate 14, the atomizing component 2 is placed in the receiving groove 137, which facilitates the positioning and installation of the atomizing component 2 and improves the stability of the atomizing component 2 after installation.
[0070] like Figures 3 to 10 As shown, in one embodiment, the silicone inner shell 13 is provided with a second mounting hole 138, which corresponds to the steam tank 132, meaning the second mounting hole 138 is located within the area of the steam tank 132. The eye massager also includes a heating element 3, which corresponds to the second mounting hole 138. The heating element 3 is fixedly connected to the silicone inner shell 13 and seals the second mounting hole 138. The heating element 3 is electrically connected to the electronic control component 7 (specifically, electrically connected to the main control board 71). The electronic control component 7 is used to supply power to the heating element 3 and control its operation. The heating element 3 can generate heat after being powered on, thereby heating the steam atomized by the atomizing component 2.
[0071] Specifically, in this embodiment, the heating element 3 is a sheet-like metal heating plate, specifically a heating aluminum sheet, which generates heat after being energized. Of course, in other embodiments, the heating element 3 can be other heating elements. The heating element 3 serves two purposes: firstly, when heating, it can directly provide a warm compress and massage to the human eye area (i.e., the heat generated by the heating element 3 can be conducted to the eye area through thermal radiation, air convection, etc.); secondly, it can heat the steam generated by the atomizing component 2, heating it to a suitable temperature, thereby improving the eye-protecting effect of the steam. In this embodiment, the second mounting holes 138 are located on the left and right sides of the first mounting hole 135. There are two heating elements 3, each located in one of the second mounting holes 138 on the left and right sides respectively. This allows the two heating elements 3 to heat the steam generated by the atomizing sheets 22 on the left and right sides of the atomizing component 2, thereby improving the eye-protecting effect of the steam.
[0072] In one implementation, the mounting plate 14 and the silicone inner shell 13 are connected as one unit through an insert vulcanization process, and the heating element 3 is also connected as one unit to the silicone inner shell 13 through the insert vulcanization process. That is, both the mounting plate 14 and the heating element 3 are connected as one unit to the silicone inner shell 13 through the insert vulcanization process. Specifically, during manufacturing, the mounting plate 14 and the heating element 3 are first manufactured separately, then the mounting plate 14 and the heating element 3 are placed in a mold, and then liquid or semi-solid silicone material is poured into the mold. After heating and vulcanization and demolding, the silicone inner shell 13 is obtained. At this time, the mounting plate 14 and the heating element 3 are fitted and fixed to the silicone inner shell 13 and connected as one unit. That is, the silicone inner shell 13 is prepared based on the mounting plate 14 and the heating element 3 through the insert vulcanization process. This can improve the connection strength and sealing performance between the mounting plate 14 and the heating element 3 and the silicone inner shell 13, and facilitate manufacturing.
[0073] like Figures 2 to 4 As shown, in one embodiment, the eye massager also includes a cover 6, which is disposed within the steam chamber 132 and located on the side of the atomizing component 2 away from the housing 1. The cover 6 covers the heating elements 3 on both sides, and also partially covers the atomizing component 2. Specifically, the cover 6 covers the lower half of the atomizing component 2 (i.e., the part of the atomizing component 2 corresponding to the front cover 27). The cover 6 has a steam hole 61 for steam to pass through. The steam generated by the atomizing component 2, after being heated by the heating elements 3, can be discharged into the steam chamber 132 through the steam hole 61; the steam hole 61 is configured as an elongated hole. The cover 6 has a second sound hole 62 at the position corresponding to the first sound hole 271, so that the sound emitted by the speaker 25 can be discharged through the second sound hole 62; the second sound hole 62 is configured as a plurality of closely spaced small holes.
[0074] Specifically, in this embodiment, the second sound outlet 62 is located in the middle of the cover 6, and the steam holes 61 are located on the left and right sides of the second sound outlet 62. The steam holes 61 on the left and right sides correspond to the heating elements 3 on the left and right sides, respectively, so that the steam heated by the heating elements 3 can be discharged through the steam holes 61. The cover 6 not only serves to cover and improve aesthetics, but also prevents the human body from directly contacting the heating elements 3 and causing burns. At the same time, the cover 6 also provides a certain buffering effect, preventing steam from directly hitting the eyes and improving the gentleness of the steam. In this embodiment, the cover 6 is detachably connected to the atomizing component 2 (specifically, the cover 6 and the atomizing component 2 are fixed by snap-fit); of course, in other embodiments, the cover 6 can also be detachably connected to the housing 1. After removing the cover 6, the atomizing component 2 can be removed from the housing 1 (or the cover 6 and the atomizing component 2 can be removed together).
[0075] like Figures 5 to 15As shown, in one embodiment, the water tank 21 is at least partially transparent; a light-emitting device 9 is provided on the inner wall of the mounting plate 14, corresponding to the transparent portion of the water tank 21; the light-emitting device 9 is electrically connected to the electronic control component 7, which supplies power to the light-emitting device 9 and controls its operation; the light-emitting device 9 can emit light when the atomizing plate 22 is working (i.e., the light-emitting device 9 can emit light when atomizing is working. Of course, in other embodiments, the light-emitting device 9 can also be set to emit light when the atomizing plate 22 is not working). Meanwhile, the transparent portion of the water tank 21 is not covered by the covering member 6.
[0076] Specifically, on the one hand, since at least part of the water tank 21 is transparent, the user can directly observe the water level inside the tank. Furthermore, the light-emitting device 9 provides illumination when it emits light, making it easier for the user to see the water level in the tank. Simultaneously, the light emitted by the device 9 can pass through the transparent structure of the tank, enhancing its aesthetic appeal. On the other hand, since the light-emitting device 9 emits light when the atomizing plate 22 is working, it can also indicate the working status of the atomizing plate 22, allowing the user to intuitively perceive whether the atomizing plate 22 is working. Moreover, in this embodiment, the light-emitting device 9 emits blue light after being powered on. This blue light can sterilize and disinfect the water in the tank 21, further improving the eye-protecting effect of the steam.
[0077] In this embodiment, the upper body 21M of the water storage tank 21 is made of transparent material (e.g., transparent plastic), and the lower body 21N is made of opaque material (of course, the lower body 21N can also be made of transparent material). The light-emitting device 9 is provided corresponding to the upper body 21M. The lower body 21N is covered by the cover 6, while the upper body 21M is not covered by the cover 6.
[0078] like Figures 5 to 15 As shown, in one embodiment, the light-emitting device 9 includes a lamp board 91 (the lamp board 91 is a circuit board) and a light guide post 92. An LED chip (not shown) is disposed on the lamp board 91, and the light guide post 92 is disposed corresponding to the LED chip. The lamp board 91 is fixed to the inner wall of the mounting plate 14, and the lamp board 91 is electrically connected to the electrical control component 7 (specifically, the main control board 71). The LED chip emits light when powered on, and the light guide post 92 guides the light emitted by the LED chip. A second clearance hole 142 is provided on the mounting plate 14 at the position corresponding to the light guide post 92. The light guide post 92 is inserted into the second clearance hole 142, thereby allowing the light guide post 92 to guide the light emitted by the LED chip to the water storage tank 21.
[0079] In one implementation, the middle frame 12 is fixedly connected to the mounting plate 14 (specifically, it can be fixedly connected by screws).
[0080] like Figures 2 to 7 As shown, in one embodiment, along the left-right direction X of the eye massager, the lower middle side of the protrusion 131 and the lower middle side of the silicone inner shell 13 are both concave upwards, so that the lower middle side of the protrusion 131 and the lower middle side of the silicone inner shell 13 together form a nose bridge avoidance groove 134. When the eye massager is worn on the face, the nose bridge avoidance groove 134 corresponds to the position of the nose bridge of the human body, so as to avoid the nose bridge; at the same time, the protrusion 131 can play a role in strengthening support, preventing the lower side of the silicone inner shell 13 from deforming and collapsing after contacting the nose bridge of the human body.
[0081] like Figures 5 to 10 , Figure 16 and Figure 17 As shown, in one embodiment, the edges of the silicone inner shell 13, the middle frame 12, and the face cover 11 are fixed by snap-fitting; specifically, the upper edge of the silicone inner shell 13, the upper edge of the middle frame 12, and the upper edge of the face cover 11 are fixed by snap-fitting, and the lower edge of the silicone inner shell 13, the lower edge of the middle frame 12, and the lower edge of the face cover 11 are fixed by snap-fitting.
[0082] The silicone inner shell 13 has flanges 130 on both the upper and lower edges. The flanges 130 and the silicone inner shell 13 are integrally formed. The flanges 130 are located on the side of the silicone inner shell 13 closest to the faceplate 11, that is, the flanges 130 are formed by folding the edge of the silicone inner shell 13 inward. The edge of the middle frame 12 is sandwiched between the flanges 130 and the silicone inner shell 13. The flanges 130 and the inner sidewall of the silicone inner shell 13 are spaced apart. Grooves 1301 are formed between the flanges 130 on both the upper and lower sides and the inner sidewall of the silicone inner shell 13. That is, grooves 1301 are formed on both the upper and lower sides of the silicone inner shell 13. The edges of the middle frame 12 on the upper and lower sides are respectively located in the grooves 1301 on the upper and lower sides.
[0083] The upper and lower edges of the middle frame 12 are each provided with a first snap-fit portion 121. The first snap-fit portion 121 is located on the side of the middle frame 12 near the face cover 11, and protrudes from the middle frame 12 toward the side near the face cover 11. The first snap-fit portion 121 and the middle frame 12 are integrally formed. The upper and lower edges of the face cover 11 are each provided with a second snap-fit portion 111. The second snap-fit portion 111 is located on the side of the face cover 11 near the silicone inner shell 13, and protrudes from the face cover 11 toward the side near the silicone inner shell 13. The second snap-fit portion 111 and the face cover 11 are integrally formed. After the first snap-fit portion 121 passes through the flange 130, it engages with the second snap-fit portion 111, thereby fixing the edges of the silicone inner shell 13, the middle frame 12, and the face cover 11 by snap-fit. The flange 130 has a hole through which the first snap-fit part 121 passes, that is, after the first snap-fit part 121 passes through the hole on the flange 130, it engages with the second snap-fit part 111. For the connection structure of the silicone inner shell 13, the middle frame 12 and the face cover 11, please refer to the patent application filed by the applicant previously, which will not be repeated here.
[0084] In this embodiment, a flange 130 is provided at the edge of the silicone inner shell 13, and the edge of the middle frame 12 is sandwiched between the flange 130 and the silicone inner shell 13. The first snap-fit part 121 on the middle frame 12 passes through the flange 130 and engages with the second snap-fit part 111, that is, the flange 130 can be hooked onto the first snap-fit part 121, so that the edges of the silicone inner shell 13, the middle frame 12 and the face cover 11 are fixed by snap-fit, which is convenient for assembly; moreover, since the flange 130 is located on the inner side of the silicone inner shell 13, it does not affect the aesthetics of the silicone inner shell 13.
[0085] like Figures 1 to 4 As shown, in one embodiment, along the left-right direction X of the eye massager, mounting components 5 are provided at opposite ends of the housing 1, i.e., the mounting components 5 are located at the left and right ends of the housing 1. The mounting components 5 and the housing 1 are separate structures (i.e., not a single structure), and the ends of the mounting components 5 and the housing 1 are detachably connected. The eye massager also includes a headband 4, the opposite ends of which are connected to the mounting components 5 at opposite ends of the housing 1. The headband 4, the housing 1, and the mounting components 5 at opposite ends form a cavity for accommodating the human head. The headband 4 is used to cooperate with the housing 1 to wear the eye massager on the user's head. The headband 4 is generally an elastic band. The headband 4 is rotatably connected to the mounting components 5 via a pivot (not shown). Specifically, the mounting components 5 can be detachably connected to the middle frame 12 and / or the face cover 11 by screws, snap-fits, or other means. For the specific structure of the mounting components 5, please refer to the applicant's previous patent application, which will not be repeated here.
[0086] In this embodiment, by setting the mounting component 5 to be detachably connected to the housing 1, when producing different models of eye massagers, if the structure of the mounting component 5 of different models of eye massagers is different, the structure of the housing 1 can remain unchanged. Only the model of the mounting component 5 needs to be changed. That is, different models of eye massagers can share the same model of housing 1. In this way, only the mounting component 5 needs to be redesigned and molded, without the need to redesign and mold the housing 1, which improves the versatility of the housing 1, thereby reducing production costs and improving production efficiency.
[0087] Meanwhile, in some application scenarios, since the mounting component 5 is detachably connected to the housing 1, users can replace different types of mounting components 5 as needed to achieve different functions (for example, some mounting components 5 do not have a temple massage component, while others have a temple massage component. By replacing the mounting component 5, the temple massage function of the eye massager can be realized).
[0088] like Figures 1 to 3 As shown, in one embodiment, the mounting component 5 does not have a temple massage component. In other embodiments, the inner side of the mounting component 5 (i.e., the side closer to the face) may also have a temple massage component for massaging the temples. It should be noted that, in addition to mounting the headband 4 and the temple massage component, the mounting component 5 can also be used to mount electronic control components (such as charging components, control circuit boards), etc., and the specific design can be tailored to the actual function of the eye massager.
[0089] like Figures 1 to 4 As shown, in one embodiment, the end of the housing 1 is provided with a notch 10 (both ends of the housing 1 are provided with notches 10), the notch 10 is a semi-circular structure, and the mounting component 5 is disposed at the notch 10 and fills the notch 10. Specifically, a part of the mounting component 5 is located inside the housing 1 and is detachably connected to the housing 1, and the other part of the mounting component 5 is located outside the housing 1 and fills the notch 10.
[0090] In this embodiment, notches are provided at both ends of the face cover 11, the middle frame 12 and the silicone inner shell 13 to form notches 10 in the shell 1.
[0091] The eye massager provided in this embodiment of the invention features a protrusion 131 on a silicone inner shell 13. The protrusion 131 is a ring-shaped structure corresponding to the outer periphery of the human eye. The protrusion 131 and the outer wall of the silicone inner shell 13 enclose a steam groove 132, within which the atomizing component 2 is disposed. Thus, when the user wears the eye massager, the protrusion 131 contacts the face, confining the steam generated by the atomizing component 2 within the steam groove 132, thereby prolonging the time the steam acts on the eyes and improving the steam massage effect. Furthermore, since the silicone inner shell 13 is made of flexible silicone, and the protrusion 131 is integrally molded with the inner shell 13, it is also made of silicone, providing a good tactile feel and improving wearing comfort. Additionally, the protrusion 131 also provides support and reinforcement to the silicone inner shell 13, further preventing the inner shell 13 from collapsing inwards.
[0092] The above are merely specific embodiments of this utility model, but the protection scope of this utility model is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the scope of the claims.
Claims
1. An eye massager, characterized in that, The device includes a housing (1) and an atomizing assembly (2). The housing (1) includes a faceplate (11), a middle frame (12), and a silicone inner shell (13). The silicone inner shell (13) is located on the side of the faceplate (11) facing the human eye. The middle frame (12) is located between the faceplate (11) and the silicone inner shell (13). The middle frame (12) abuts against the inner wall of the silicone inner shell (13) to support the silicone inner shell (13). The faceplate (11), the middle frame (12), and the silicone inner shell (13) are fixedly connected. The silicone inner shell (13) has a protrusion (131) on the side facing the human eye. The protrusion (131) and the silicone inner shell (13) are an integral structure. The protrusion (131) is a ring structure corresponding to the outer periphery of the human eye. The protrusion (131) and the outer wall of the silicone inner shell (13) enclose a steam groove (132). The atomizing component (2) is disposed in the steam groove (132). The atomizing component (2) is used to atomize water to form steam.
2. The eye massager as described in claim 1, characterized in that, The depth of the steam tank (132) is 5mm to 20mm.
3. The eye massager as described in claim 1, characterized in that, The inner wall of the silicone inner shell (13) is provided with an annular groove (133) corresponding to the position of the protrusion (131).
4. The eye massager as described in claim 1, characterized in that, Along the left-right direction (X) of the eye massager, the lower middle side of the protrusion (131) and the lower middle side of the silicone inner shell (13) are both recessed upwards, so that the lower middle side of the protrusion (131) and the lower middle side of the silicone inner shell (13) together form a nose bridge clearance groove (134).
5. The eye massager as described in claim 1, characterized in that, Along the left-right direction (X) of the eye massager, a first mounting hole (135) is provided at the middle position of the silicone inner shell (13), and the first mounting hole (135) is set corresponding to the steam tank (132); the shell (1) also includes a mounting plate (14), the hardness of the mounting plate (14) is greater than the hardness of the silicone inner shell (13); the mounting plate (14) is located on the side of the middle frame (12) away from the face cover (11), the mounting plate (14) is set corresponding to the first mounting hole (135), the mounting plate (14) is fixedly connected to the silicone inner shell (13), and the mounting plate (14) seals the first mounting hole (135); the atomizing component (2) is located on the side of the mounting plate (14) away from the middle frame (12), and the atomizing component (2) is detachably installed on the mounting plate (14).
6. The eye massager as described in claim 5, characterized in that, The silicone inner shell (13) has a recessed portion (136) around the first mounting hole (135). The recessed portion (136) is formed by the silicone inner shell (13) being recessed inward toward the middle frame (12). The recessed portion (136) has an annular folded edge portion (1361) around the first mounting hole (135). The edge of the mounting plate (14) is fixedly connected to the annular folded edge portion (1361). A receiving groove (137) is formed between the mounting plate (14) and the recessed portion (136). The receiving groove (137) is connected to the steam groove (132). The atomizing component (2) is disposed in the receiving groove (137).
7. The eye massager as described in claim 5, characterized in that, The mounting plate (14) is connected to the silicone inner shell (13) as a whole.
8. The eye massager as described in claim 1, characterized in that, The silicone inner shell (13) is provided with a second mounting hole (138), which corresponds to the steam tank (132). The eye massager also includes a heating element (3), which corresponds to the second mounting hole (138). The heating element (3) is fixedly connected to the silicone inner shell (13), and the heating element (3) seals the second mounting hole (138). The heating element (3) can generate heat after being powered on, so as to heat the steam generated by the atomizing component (2).
9. The eye massager as described in claim 8, characterized in that, The heating element (3) is integrated with the silicone inner shell (13).
10. The eye massager as described in any one of claims 1-9, characterized in that, The eye massager also includes a headpiece (4); each of the opposite ends of the housing (1) is provided with a mounting assembly (5), and the opposite ends of the headpiece (4) are respectively connected to the mounting assemblies (5) at the opposite ends of the housing (1); the mounting assemblies (5) are detachably connected to the ends of the housing (1).